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S-AV36A Dataheets PDF



Part Number S-AV36A
Manufacturers Toshiba Semiconductor
Logo Toshiba Semiconductor
Description RF POWER AMPLIFIER MODULE FM RF POWER AMPLIFIER MODULE
Datasheet S-AV36A DatasheetS-AV36A Datasheet (PDF)

S-AV36A TOSHIBA RF POWER AMPLIFIER MODULE S-AV36A FM RF POWER AMPLIFIER MODULE FOR 80-W COMMERCIAL VHF RADIO APPLICATIONS www.datasheet4u.com ・Power Gain: 32 dB (Min.) ・Total Efficiency: 45% (Min.) ABSOLUTE MAXIMUM RATINGS (Tc = 25°C, IT < 15 A, ZG = ZL = 50Ω) CHARACTERISTICS Maximum Current Power Supply Voltage Control Voltage Instantaneous Output Power Input Power Operating Case Temperature Storage Temperature SYMBOL IT VDD VGG Pomax Pi Tc (opr) Tstg VGG = 0 V (GND), RF: none 10.5 ≤ VDD ≤ 16.

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S-AV36A TOSHIBA RF POWER AMPLIFIER MODULE S-AV36A FM RF POWER AMPLIFIER MODULE FOR 80-W COMMERCIAL VHF RADIO APPLICATIONS www.datasheet4u.com ・Power Gain: 32 dB (Min.) ・Total Efficiency: 45% (Min.) ABSOLUTE MAXIMUM RATINGS (Tc = 25°C, IT < 15 A, ZG = ZL = 50Ω) CHARACTERISTICS Maximum Current Power Supply Voltage Control Voltage Instantaneous Output Power Input Power Operating Case Temperature Storage Temperature SYMBOL IT VDD VGG Pomax Pi Tc (opr) Tstg VGG = 0 V (GND), RF: none 10.5 ≤ VDD ≤ 16.5 V, Pi = 50 mW VGG ≤ 5.5 V, Pi = 50 mW, 10.5 ≤ VDD ≤ 16.5V, within 2 seconds 10.5 ≤ VDD ≤ 16.5 V, VGG ≤ 5.5 V 10.5 ≤ VDD ≤ 16.5 V, VGG ≤ 5.5 V, Pi = 50 mW (Note 2) TEST CONDITION RATING 15 16.5 5.5 90 100 -30 to 100 -40 to 110 UNIT A V V W mW °C °C Note 1: The maximum ratings are the limits that must not be exceeded even for an instant, under worst possible conditions. Exceeding the ratings may cause device damage, ignition, or deterioration. Therefore, when designing the circuitry, derating factors should be applied so that the absolute maximum ratings are not exceeded. Note 2: The output power rating satisfies the range shown in Figures 1 and 2 according to the operating case temperature. Ensure that the device should be operated within the specified operating range. The figures below indicate the output power obtained 2 seconds after Po is generated. Pomax-Tc 90 80 70 60 PDmax-Tc 180 160 140 120 PDmax(W) 100 80 60 40 20 Pomax(W) 50 40 30 20 10 0 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 Tc (℃) Power dissipation (PD) PD = (VDD × IDD) – Po + Pi 0 10 20 30 40 Tc(℃) 50 60 70 80 90 100 0 -30 -20 -10 Figure.1 Pomax-Tc Figure.2 PDmax-Tc *When the device is used at Tc =100°C, the output power rating is 64 W as shown in Figure 1. When the power dissipation at Tc = 100°C exceeds the rating shown in Figure 2, the output derating is required to limit the dissipation within the specified range. Note 3: The case temperature is monitored using the screw terminal blocks on the input side that are used for the module implementation. Note 4: To protect a device from being permanently damaged, the power-on sequence must be as follows (, while the reversed order should be applied when turning off): 1. VDD, 2. Pi, 3. VGG 1 2007-06-21 S-AV36A PACKAGE OUTLINE Unit: mm www.datasheet4u.com ⑤ ① ② ③ ④ ① RF Input ④ RF Output JEDEC JEITA TOSHIBA Weight: 35 g ② VGG ③ VDD ⑤ GROUND(Flange) — — 5-53P ELECTRICAL CHARACTERISTICS (Tc = 25°C, ZG = 50Ω) CHARACTERISTICS Frequency Range Output Power Power Gain Total Efficiency Input VSWR Second Harmonic Third Harmonic SYMBOL frange Po Gp ηT VSWRin 2nd HRM 3rd HRM 10.5 V ≤ VDD ≤ 16.5 V, 0 V ≤ VGG ≤ VGGajs (VGG = VGGajs @ Po = 80 W) Ruggedness — Pi = 50 mW Po = 80 W (Adjusted via VGG @ ZL = 50Ω) VSWR LOAD 20: 1 ALL PHASE (@ 2 s) 10.5 V ≤ VDD ≤ 16.5 V, 0 V ≤ VGG ≤ VGGajs Stability — (VGG = VGGajs @ Po = 80 W) Pi = 50 mW Po ≤ 80 W (Adjusted via VGG @ ZL = 50Ω) VSWR LOAD 3: 1 ALL PHASE No spurious output of -60 dB or greater — No Damage — VDD = 12.5 V VGG = 5 V Pi = 50 mW ZL = 50 Ω TEST CONDITION — MIN 134 80 32 45 — — — TYP. — — — — — — — MAX 174 — — — 3.0 -25 -30 UNIT MHz W dB % — dB dB Note 5:The output power is intended to follow the rating provided in Figure 1 in Note 2. Note 6: Stability Measurements are performed under the conditions where VSWR is at 3:1 through all phases over the whole frequency range, and they are guaranteed only under those conditions. Even though it is guaranteed to be stable where VSWR is at 3:1, the VSWR load over the operating frequency should be designed to be 50 Ω .At the same time, ensure that the VSWR load does not deviate much from 50Ω even for a moment, nor deviate even a little from 50Ω continually. The S-AU82AL is not intended for such operations, and proper operation under such conditions is not guaranteed due to the possibilities of heat generation in the module and its applications. 2 2007-06-21 S-AV36A HANDLING PRECAUTIONS ・ Since this product has a protective cap, care should be taken to avoid applying an excessive impact and allowing foreign objects to get inside when handling this product. Also, please do not remove a cap. If the cap is removed, the foreign object inside the module or the applied impact may lead IC failure, causing smoke or ignition. ・ Since this product is structurally susceptible to static electricity, protections against the static electricity should be www.datasheet4u.com applied to objects that may come in direct contact with devices, such as worktables, equipment, operators and solder irons. ・This product is not designed nor intended to perform a continuous transmission for applications like a base station. Please do not use this product for such applications, for the reliability cannot be guaranteed. ・This product is intended to be used for a single operation (single-device operation). A proper operation is not guaranteed for a parallel operation. A parallel operation should be performed in accordance with y.


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